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Availability and Feasibility of Water Desalination As a Non-Conventional Resource for Agricultural Irrigation in the MENA Region: a Review

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sustainability Review Availability and Feasibility of Water Desalination as a Non-Conventional Resource for Agricultural Irrigation in the MENA Region: A Review Hassan A. Awaad 1, Elsayed Mansour 1 , Mohammad Akrami 2,* , Hassan E.S. Fath 3, Akbar A. Javadi 2 and Abdelazim Negm 4,* 1 Crop Science Department., Faculty of Agriculture, Zagazig University, Zagazig 44511, Egypt; [email protected] (H.A.A.); [email protected] (E.M.) 2 Department of Engineering, University of Exeter, Exeter EX4 4QF, UK; [email protected] 3 Ex-Egypt-Japan University of Science and Technology (E-JUST), Borg El-Arab, Alexandria 21934, Egypt; [email protected] 4 Water and Water structures Engineering Department, Faculty of Engineering, Zagazig University, Zagazig 44519, Egypt * Correspondence: [email protected] (M.A.); [email protected] or [email protected] (A.N.) Received: 14 August 2020; Accepted: 13 September 2020; Published: 15 September 2020 Abstract: Many countries in the MENA region (Middle East and North Africa) are facing water scarcity, which poses a great challenge to agricultural production. Furthermore, water scarcity is projected to increase due to climate change, particularly in arid and semi-arid regions. The integration of solar power and water desalination systems in greenhouses to overcome water shortages is one of the preferred technologies in crop-growing areas. Crop growth control is done through sufficient management of environmental climatic variables as well as the quantity and quality of water and applied fertilisers with irrigation. Numerous crops such as cucumbers, tomatoes, peppers, lettuces, strawberries, flowers, and herbs can be grown under greenhouse conditions using desalinated water. This paper displays the state of the art in (i) solar-driven saltwater desalination to irrigate crops, (ii) the feasibility of water desalination for agriculture in the MENA region, (iii) the economics and environmental impacts of the desalination process, (iv) the quality of desalinated water compared with other non-conventional water resources and (v) recommendations for the future in the MENA region. Keywords: solar desalination technology; saltwater; greenhouse; water quality; productivity; crops; climate change 1. Introduction The MENA region is one of the most responsive regions to climate change and its effects on water resources. Moreover, many countries in the MENA region are facing water scarcity, which impedes agricultural development. It is projected that the annual demand for water in the MENA region will increase almost five-fold from 42 to 200 km3 by 2050 as a result of population growth and the expected negative effects of climate change. Indeed, the amount of fresh water available to the citizens of MENA decreased by half from 3000 m3/capita to 1500 m3/capita from 1975 to 2001, largely due to rapid population growth. At present, a citizen in the MENA countries consumes slightly over 1000 m3, compared to the average global consumption, which reaches more than 7000 m3. In fact, most of the world’s top twenty water-limited countries are in the MENA region [1]. In Egypt, as in most Mediterranean countries, agricultural production suffers from a water shortage. This is exacerbated by increasing demand and the negative impacts of climate change [2–4]. In this context, Elsaeed [5] showed that it is crucial to obtain new alternative water resources in Sustainability 2020, 12, 7592; doi:10.3390/su12187592 www.mdpi.com/journal/sustainability Sustainability 2020, 12, 7592 2 of 14 Egypt. The water supply in Egypt comes mainly from three sources: the Nile (95%), rainfall (3.5%), and groundwater (1.5%). The Nile gives 55.5 billion m3 per year, while the other two sources combined provide around 2.2 billion m3 of fresh water. Egypt’s freshwater reserves are around 58 billion m3 per year, however, the country’s annual water requirement is approximately 77 billion m3. The process of recycling is a way of reducing the gap between supply and demand of water in Egypt. The water shortfall, which is about 19 billion m3, is met by a mixture of recycled wastewater from agriculture (8 billion m3) and treated industrial effluent and sewage (4 billion m3). In addition, a supplementary 4 billion m3 of shallow aquifers are extracted, and 3 billion m3 are received from the Al-Salam Canal project [6], (Figure1). Figure 1. Annual water requirements in Egypt and the sources from where they are obtained. Similarly, the other countries in the MENA region such as Morocco, Algeria, Tunisia, Libya, Mauritania, Sudan, Lebanon, Jordan, Iraq, Syria, Saudi Arabia, Kuwait, Bahrain, Qatar, the United Arab Emirates, Oman and Yemen suffer from water shortages [7]. Increasing water shortage in these countries requires finding non-conventional water resources such as saltwater, agriculture drainage and wastewater to meet the growing demands for water [8–10]. Solar desalination is a novel approach to produce water with a low salt concentration using solar energy [11]. This paper presents the importance of using solar energy for saltwater desalination to produce economic crops, especially in greenhouse systems, and the possibility of applying that in the MENA region. 2. Expectations of Water Shortage in the Future It is projected that water availability in the MENA region will decrease due to climate change [2,12,13]. Total renewable water resources will be significantly reduced due to the fluctuations in precipitation and evapotranspiration [14]. When considering the data for the whole MENA region, the total renewable water resources will decrease by about 12% (equal to 47 km3) a year, as illustrated in Figure2[15]. Furthermore, it is expected by 2050 that irrigation water requirements will increase by about 15% over present requirements, if global warming will cause wet weather [2,16,17] (Table1). Conversely, if the climate becomes drier, irrigation requirements are expected to increase by about 33%. Overall, water requirements are estimated to increase by approximately 24% over the current requirements [16,17]. Sustainability 2020, 12, 7592 3 of 14 Figure 2. Total gross recharge, internal, external and total renewable water resources in the MENA region from 2010 to 2050 [15]. Table 1. Projected irrigation water requirements in the MENA region (km3/year) and the percentage increment over the current requirements [16]. Climate Scenario Average Dry Wet Current 2000–09 213 - - 2020–30 237 (+11%) 254 (+19%) 222 (+4%) 2040–50 265 (+24%) 283 (+33%) 246 (+15%) Note: - = not available. 3. Using Solar Energy in Water Desalination to Irrigate Crops Using water desalination by means of solar energy in agricultural production is crucial as a simple and low-cost technique to cope with water shortages particularly, under current climate change [2,18,19]. Using solar energy in seawater desalination requires solar-energy humidification–dehumidification desalination, thermal diffusion-driven desalination, solar stills, solar membrane distillation, hybrid desalination plant systems that integrate thermal and membrane desalination processes, intense solar energy-based desalination, solar pond distillation and nanomaterials for solar distillation technology [20]. Roca et al. [21] elucidated that water shortages in the Mediterranean region severely affect food production. Accordingly, using thermal desalination processes is needed to avoid the exploitation of aquifers to supply water to the crops. They used a greenhouse at the experimental station of the Cajamar Foundation in Almería, Spain. The cultivation of crops was carried out in two multiple tunnel greenhouses. Crop growth and crop management conditions were adjusted to be analogous to commercial greenhouses. A meteorological station was installed outside the greenhouse in order to record rainfall, relative humidity, temperature, light radiation, wind direction and velocity. Also, the climate variables inside the greenhouse such as air temperature, soil temperature, leaf temperature, photosynthetic active radiation (PAR), solar radiation, relative humidity, CO2 levels, and leaf wetness were measured, as well as the electrical conductivity and the pH in both irrigation and drainage water. They attempted to reduce the cost of producing fresh water from the solar desalination technique by using a hierarchical Sustainability 2020, 12, 7592 4 of 14 controller; using an appropriate control system with solar desalination reduces the electricity costs. Moreover, an external source of energy could be involved to confirm continuous freshwater production. Davies and Paton [22] modelled a greenhouse with humidification–dehumidification that combined a solar desalination scheme by utilising a computational fluid dynamics model, and calibrated the model with data from a preliminary greenhouse model in the United Arab Emirates. Their results indicated that this technique increased freshwater production, and simultaneously decreased the air temperature in the greenhouse. Salem [23] indicated that solar-powered desalination is extremely appropriate under sunny environments such as those in the MENA region. Both efficiency and economy should be taken into consideration before using solar-powered water desalination. A novel scheme of humidification– dehumidification for desalination reduces the temperature inside greenhouses. Accordingly, this system produces fresh water from seawater as well as supplying a perfect environment for cultivating temperate crops. This approach produces required fresh water for crop production in a greenhouse system.
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